CN106201143A - A kind of touch control display apparatus - Google Patents

Abstract

The invention discloses a kind of touch control display apparatus.Described touch control display apparatus includes viewing area and non-display area；Wherein, described viewing area includes scan line layer, signal line layer and touch control electrode layer；It has been respectively separated insulating barrier between described scan line layer, described signal line layer and described touch control electrode layer；Described scan line layer includes fine scanning line；Described signal line layer includes many column signal lines；Described many column signal lines are arranged in a crossed manner with described fine scanning line；Gate line described at least one is electrically connected with scan line described in a line by described first via, and touching signals line described at least one is electrically connected by the described touch control electrode block of described second via and a piece.The technical scheme that the embodiment of the present invention provides, achieve the same layer setting of touching signals line and gate line, and utilize the space shared by the part that in prior art, touching signals line is not used effectively to arrange gate line cleverly, it is to avoid the waste in space.

Description

A kind of touch control display apparatus

Technical field

The present invention relates to touch-control display field, particularly relate to a kind of touch control display apparatus.

Background technology

Touch controllable function is integrated in the touch control display apparatus within display floater without arranging private space for touch-control module, Expand screen and can configure area, and then meet that user is simple to operate to portable type electronic product, volume is little and screen size Big demand, is increasingly becoming the display device of main flow.

Touch control display apparatus includes touch-control display panel, and according to the difference of operation principle, touch-control display panel is divided into from electricity Appearance formula touch-control display panel and mutual capacitance type touch control display floater.For self-tolerant touch-control display panel, each touch control electrode block Need to receive, by a touching signals line being connected electrically, the touching signals that driving chip produces.Prior art is passed through In the structure of touch-control display panel, increase by one layer of touching signals line layer, and respectively via is passed through in one end of each touching signals line With corresponding touch control electrode block electrical connection, the mode that the other end electrically connects with driving chip, make the touch-control letter that driving chip produces Number transmitted to each touch control electrode block by each touching signals line, it is achieved normal touch controllable function.

But every touching signals line is all through what display floater viewing area was arranged in prior art, and actual performance The only driving chip of effect is extremely used for the part connecting between the via of this touching signals line and corresponding touch control electrode, remainder Point cabling is the most not utilized, but the space that remainder takies is unrenewable in arranging miscellaneous part, causes wave spatially Take.

Summary of the invention

The embodiment of the present invention provides a kind of touch control display apparatus, to utilize in prior art touching signals line not by effectively profit The space shared by part gate line is set, it is to avoid the waste in space.

Embodiments providing a kind of touch control display apparatus, described touch control display apparatus includes: viewing area and non-aobvious Show district；

Wherein, described viewing area includes scan line layer, signal line layer and touch control electrode layer；

It has been respectively separated insulating barrier between described scan line layer, described signal line layer and described touch control electrode layer；

Described scan line layer includes fine scanning line；

Described signal line layer includes many column signal lines；

Described many column signal lines are arranged in a crossed manner with described fine scanning line；

At least holding wire described in string includes a gate line being mutually electrically insulated and a touching signals line；

Described touch control electrode layer includes multiple separate touch control electrode block；

In insulating barrier between described scan line layer and described signal line layer, the first via is set；Described signal line layer and institute Second via is set in stating the insulating barrier between touch control electrode layer；Gate line described at least one passes through described first via Electrically connecting with scan line described in a line, touching signals line described at least one is by described second via and one block of described touch-control electricity Pole block electrical connection.

In the technical scheme that the embodiment of the present invention provides, touch control display apparatus includes viewing area and non-display area, viewing area Including scan line layer, signal line layer and touch control electrode layer, wherein, signal line layer includes many column signal lines, by arranging at least one Column signal line includes a gate line being mutually electrically insulated and a touching signals line, it is achieved that touching signals line and grid The same layer of pole holding wire is arranged, and utilizes cleverly shared by the part that in prior art, touching signals line is not used effectively Space arranges gate line, it is to avoid the waste in space.

Accompanying drawing explanation

By the detailed description that non-limiting example is made made with reference to the following drawings of reading, other of the present invention Feature, purpose and advantage will become more apparent upon:

Fig. 1 is the plan structure schematic diagram of a kind of touch control display apparatus that the embodiment of the present invention provides；

Fig. 2 is the plan structure schematic diagram of another touch control display apparatus that the embodiment of the present invention provides；

Fig. 3 is the plan structure schematic diagram of another touch control display apparatus that the embodiment of the present invention provides；

Fig. 4 is the partial enlarged drawing of oval dotted line frame in corresponding diagram 3；

Fig. 5 is the cross-sectional view along Fig. 4 dotted line AB.

Detailed description of the invention

The present invention is described in further detail with embodiment below in conjunction with the accompanying drawings.It is understood that this place is retouched The specific embodiment stated is used only for explaining the present invention, rather than limitation of the invention.It also should be noted that, in order to just Part related to the present invention is illustrate only rather than full content in description, accompanying drawing.

Fig. 1 is the plan structure schematic diagram of a kind of touch control display apparatus that the embodiment of the present invention provides.As it is shown in figure 1, touch Control display device 10 includes viewing area 11 and non-display area 12, wherein, described viewing area 11 include scan line layer, signal line layer and Touch control electrode layer, has been respectively separated insulating barrier between described scan line layer, described signal line layer and described touch control electrode layer and (has not shown Go out).Wherein, described touch control electrode layer includes multiple separate touch control electrode block 113, and multiple touch control electrode block 113 in Line-column matrix arranges.Described scan line layer includes that fine scanning line Gm, m are sequence number of scanning lines, and is the most whole more than or equal to 1 Number.Due to needs for scan line Gm provide scanning signal and for touch control electrode block 113 provide touch-control drive signal, therefore this The touch control display apparatus 10 that bright embodiment provides also includes signal line layer.Described signal line layer includes many column signal lines 110, described Many column signal lines 110 are arranged in a crossed manner with described fine scanning line Gm, and at least holding wire 110 described in string includes the most electrically One gate line 111 of insulation and a touching signals line 112.Exhausted between described scan line layer and described signal line layer Arranging the first via 114 in edge layer (not shown), the insulating barrier between described signal line layer and described touch control electrode layer (does not shows Go out) in the second via 115 is set.Gate line 111 is electrically connected with corresponding scan line Gm by the first via 114, touch-control Holding wire 112 is electrically connected with corresponding touch control electrode block 113 by the second via 115.

It should be noted that a column signal line 110 includes the gate line 111 that is mutually electrically insulated and one touch Control holding wire 112 refers to that this gate line 111 and this touching signals line 112 are on same straight line or same broken line.Specifically , the gate line 111 and the touching signals line 112 that belong to same column signal line 110 can run through viewing area by blocking one The metal wire of 11 is formed, it is also possible to utilize mask plate to concurrently form in same processing step.

The touch control display apparatus 10 that the present embodiment provides includes mutually being electrically insulated by arranging at least one column signal line 110 A gate line 111 and a touching signals line 112, it is achieved that touching signals line 112 is same with gate line 111 Layer is arranged, and utilizes the space shared by the part that in prior art, touching signals line 112 is not used effectively to set cleverly Put gate line 111, it is to avoid the waste in space.Compared to prior art needing additionally arrange grid at non-display area 12 Holding wire 111, the touch control display apparatus 10 in the embodiment of the present invention can reduce the region that non-display area 12 metal routing is arranged Width, meets the demand of user's frame narrow to touch control display apparatus 10.

It should be noted that Fig. 1 only all includes gate line 111 He of mutually insulated with every column signal line 110 Article one, touching signals line 112, and every horizontal scanning line Gm one gate line 111 of connection, each touch control electrode block 113 connects one Illustrate as a example by bar touching signals line 112, rather than the restriction to signal line layer structure.

Optionally, in the present embodiment, the structure of signal line layer can also is that many column signal line 110 structures are divided into two classes, first Class holding wire includes the gate line 111 of mutually insulated and a touching signals line 112, and Equations of The Second Kind holding wire only includes Article one, gate line 111 or a touching signals line 112.Additionally, every horizontal scanning line Gm can only connect a signal Line 111, each touch control electrode block 113 connects a touching signals line 112；Optionally, it is also possible to arrange every horizontal scanning line Gm with A plurality of gate line 111 connects, and each touch control electrode block 113 connects a touching signals line 112, or each touch control electrode Block 113 is connected with a plurality of touching signals line 112, and every horizontal scanning line Gm only connects a gate line 111, or often row scanning Line Gm is connected with a plurality of gate line 111, and each touch control electrode block 113 is connected with a plurality of touching signals line 112.

Exemplary, Fig. 2 is the plan structure schematic diagram of another touch control display apparatus that the embodiment of the present invention provides.Need Being noted that the structure for clearer display signal line layer, Fig. 2 illustrate only the structure relevant to signal line layer.Such as Fig. 2 Shown in, touch control display apparatus 20 includes viewing area 21 and non-display area 22, and viewing area 21 includes signal line layer, signal line layer bag Including many column signal lines 210, many column signal lines 210 include two class holding wires.Wherein, first kind holding wire 221 includes mutually insulated A gate line 211 and a touching signals line 212, Equations of The Second Kind holding wire 222 only includes a gate line 211 Or a touching signals line 212.

It should be noted that when a horizontal scanning line Gm connects a plurality of gate line 111, a plurality of gate line 111 One end is connected with same horizontal scanning line Gm, and the other end pools in the non-display area 12 of close gate driver circuit 117 side Being a metal line, this metal wire is connected with gate driver circuit 117.This set ensure that a plurality of gate line 111 In any bar when damaging, gate drive signal still can be transmitted to scan line Gm by other gate line 111.For One piece of touch control electrode block 113 connects the situation of a plurality of touching signals line 112, and its setting principle is similar to the above case, at this not Tire out again and state.

It should be noted that relative to other signal line layer structure above-mentioned, the every column signal line 110 shown in Fig. 1 wraps Include the gate line 111 of mutually insulated and a touching signals line 112, and every horizontal scanning line Gm connects a grid letter Number line 111, connected mode that each touch control electrode block 113 connects a touching signals line 112 is simpler to be understood, it is simple to set Meter, and easily detection bad line position, therefore, the present invention specifically sets gate line 111 in this structure and touching signals line 112 The mode of putting is described in more detail.

Concrete, in FIG, often go the quantity of described touch control electrode block 113 equal to described a line touch control electrode block 113 model Enclose the scan line Gm quantity of interior setting.

Optionally, a plurality of described touching signals line 112 length phase of described touch control electrode block 113 of often going in Fig. 1 electrical connection Deng, often go and be provided with 3 horizontal scanning line Gm in the range of described touch control electrode block 113,3 grid of 3 horizontal scanning line Gm correspondences electrical connections Pole holding wire 111 is arranged in the range of different lines touch control electrode block 113.

Exemplary, as it is shown in figure 1, touch control electrode block 113 includes first touch control electrode block the 1131, second touch control electrode block 1132 and the 3rd touch control electrode block 1133, gate line 111 includes first grid holding wire 1111, second grid holding wire 1112 and the 3rd gate line 1113, touching signals line 112 includes first touching signals line the 1121, second touching signals line 1122 and the 3rd touching signals line 1123.The touch control electrode block 113 being positioned at the first row includes the first touch control electrode block 1131, second Touch control electrode block 1132 and the 3rd touch control electrode block 1133, wherein, the first touch control electrode block 1131 and the first touching signals line 1121 connect, and the second touch control electrode block 1132 is connected with the second touching signals line 1122, the 3rd touch control electrode block 1133 and the 3rd Touching signals line 1123 connects, the first touching signals line the 1121, second touching signals line 1122 and the 3rd touching signals line 1123 Length equal.It addition, be provided with scan line G1, scan line G2 and scan line G3 in the range of the first row touch control electrode block 113, its In, scan line G1 is connected with first grid holding wire 1111, and scan line G2 is connected with second grid holding wire 1112, scan line G3 Being connected with the 3rd gate line 1113, first grid holding wire 1111 is arranged in the range of the first touch control electrode block 1131, Second grid holding wire 1112 is arranged in the range of the second touch control electrode block 1132, and the 3rd gate line 1113 is arranged at In the range of three touch control electrode blocks 1133.

Optionally, along the row orientation of described touch control electrode block 113, in the range of touch control electrode block 113 described in a line The length of described 3 gate line 111 is incremented by successively or successively decreases successively.

Exemplary, in FIG, first grid holding wire 1111 is arranged in the range of the first touch control electrode block 1131, Second grid holding wire 1112 is arranged in the range of the second touch control electrode block 1132, and the 3rd gate line 1113 is arranged at In the range of three touch control electrode blocks 1133, and along the row orientation X of touch control electrode block 113, first grid holding wire 1111, The length of two gate line 1112 and the 3rd gate line 1113 is successively decreased successively.It should be noted that in the present embodiment Described 3 signals along the row orientation X of described touch control electrode block 113, in the range of touch control electrode block 113 described in a line The length of line 111 is not limited to be incremented by successively subtract, it is also possible to be incremented by successively, it is also possible on the premise of disclosure satisfy that annexation, Without specific order of arrangement.

Optionally, the every column signal line 110 in Fig. 1 is arranged between adjacent two row pixel cells 118.So as black matrix" Each column signal line 110 can be completely covered, it is to avoid holding wire 110 takies the area of viewing area.

In FIG, touch control display apparatus 10 can also include the gate driver circuit being arranged in described non-display area 12 117 and driving chip 116, described gate driver circuit 117 electrically connects with described a plurality of gate line 111, described driving Chip 116 electrically connects with described a plurality of touching signals line 112, and described gate driver circuit 117 and described driving chip 116 are respectively It is positioned at the non-display area 12 of described viewing area 11 opposite sides.

It should be noted that gate driver circuit 117 and driving chip 116 are respectively arranged at viewing area 11 opposite sides Non-display area 12, it is to avoid both of which is arranged at line construction that the non-display area 12 of viewing area 11 side causes complicated with And the problem that signal interferes.Additionally, due to a plurality of gate line 111 can be directly disposed at viewing area, and it is connected to Gate driver circuit 117, thus without the space of the non-display area 12 taking both sides, viewing area 11, is conducive to reducing viewing area 11 The width of both sides non-display area 12, and then realize the narrow frame design of touch control display apparatus 10.

Optionally, described touch control electrode layer can also be multiplexed with common electrode layer.When touch control display apparatus 10 is in display Under the mode of operation of state, touch control electrode layer plays the effect providing common electric voltage；And when touch control display apparatus 10 is in touch-control Under the mode of operation of state, touch control electrode layer provides touch-control to drive signal.Touch control electrode layer and common electrode layer multiplexing, Ke Yijin One step reduces the thickness of touch control display apparatus 10, and touch control electrode layer and common electrode layer multiplexing, only needs in manufacturing process Etching technics, it is not necessary to touch control electrode layer and common electrode layer are made mask plate respectively, provides cost savings, decrease processing procedure Quantity, improves production efficiency.

Fig. 3 is the plan structure schematic diagram of another touch control display apparatus that the embodiment of the present invention provides.As it is shown on figure 3, Touch control display apparatus 30 includes viewing area 31 and non-display area 32.Wherein, described viewing area 31 includes scan line layer, signal line layer And touch control electrode layer, it is respectively separated insulating barrier (not between described scan line layer, described signal line layer and described touch control electrode layer Illustrate), described scan line layer includes fine scanning line Gm, and described signal line layer includes many column signal lines 310, described many column signals Line 310 is arranged in a crossed manner with described fine scanning line Gm.Wherein, described touch control electrode layer includes multiple separate touch control electrode Block 313, arranges the first via 314 in the insulating barrier (not shown) between described scan line Gm layer and described signal line layer, described Second via 315 is set in the insulating barrier (not shown) between signal line layer and described touch control electrode layer.Holding wire described in each column 310 include the gate line 311 that is mutually electrically insulated and a touching signals line 312.Gate line 311 is by the One via 314 electrically connects with corresponding scan line Gm, and touching signals line 312 is by the second via 315 and corresponding touch control electrode Block 313 electrically connects.The plurality of touch control electrode block 313 arranges in line-column matrix, and described scan line Gm of often going is by described in one First via 314 electrically connects with a described gate line 311, and each described touch control electrode block 313 is by one described the Two vias 315 electrically connect with a described touching signals line 312.

Exemplary, in figure 3, in the range of touch control electrode block 313 described in each column is set, it is provided with the 3 described holding wires of row 310.As it is shown on figure 3, be provided with the 4th touching signals line the 3121, the 5th touching signals in the range of first row touch control electrode block 313 Line 3122 and the 6th touching signals line 3123, the 4th touching signals line the 3121, the 5th touching signals line 3122 and the 6th touches The length of control holding wire 3123 is different.

Optionally, along the row orientation X of touch control electrode block 313, the 4th touching signals line the 3121, the 5th touching signals line 3122 and the 6th the length of touching signals line 3123 successively decrease successively, and with the 4th touching signals line the 3121, the 5th touching signals Line 3122 and the 4th gate line 3111 of the 6th touching signals line 3123 correspondence, the 5th gate line 3112 and The length of six gate line 3113 is incremented by successively.It should be noted that under above-mentioned touching signals line 312 structure, grid is believed The length of number line 311 can change on the premise of corresponding touching signals line 312 no overlap at gate line 311.

It should be noted that the facilities of 3 column signal lines 310 comprised in the range of each row touch control electrode block 313 in Fig. 3 Identical, i.e. along the row orientation X of touch control electrode block 313, the 3 touching signals lines comprised in the range of each touch control electrode block 313 The length of 312 is successively decreased the most successively, and the length of 3 gate line 311 comprised in the range of each touch control electrode block 313 is the most successively It is incremented by.Optionally, in the present embodiment, the facilities of 3 signal line 310 in the range of each row touch control electrode block 313 can also be without It is same as the facilities of 3 signal line 310 in the range of other row touch control electrode blocks 313.

In figure 3, the interval between touching signals line 312 and the gate line 311 of same column signal line 310 is belonged to little Distance between adjacent two column scan line Gm.So arrange and can make being approximately equal in length of each column signal line 310, thus The area approximation that each touch control electrode block 313 is corresponding with holding wire 310 is equal, then each touch control electrode block 313 and holding wire 310 Between faradism capacitance approximately equal, and then during touch-control, between each touch control electrode block 313, touch-control sensing amount is evenly.

As it is shown on figure 3, touch control display apparatus 30 also includes a plurality of data lines Dn arranged in a crossed manner with fine scanning line Gm, many Data line Dn is arranged with many column signal line 310 parallel insulations.For avoiding aperture opening ratio to decline, the most adjacent two row pixel cells are set Black matrix" between 318 covers a data line Dn and a column signal line 310.

Fig. 4 is the partial enlarged drawing of oval dotted line frame in corresponding diagram 3.As shown in Figure 4, signal line layer includes many column signals Holding wire 510 described in line 510, at least string includes a gate line 511 and a touching signals line 512.Fig. 5 is along figure The cross-sectional view of 4 dotted line AB.As it is shown in figure 5, optional, data wire D1 and gate line 511 and touching signals Line 512 can be arranged with layer, i.e. a plurality of data lines Dn is arranged with layer with signal line layer.

It should be noted that a plurality of data lines Dn can be arranged in parallel with holding wire 510.A plurality of data lines Dn and holding wire There is not intersection point between 510, do not have signal interference problem, therefore can be arranged at same layer, such setting makes many data Line Dn and holding wire 510 can be formed in same processing step, and then reduce manufacturing process, the thickness of whole touch control display apparatus Degree reduces, the beneficially thinning of touch control display apparatus.

In Figure 5, thin film transistor (TFT) is top gate structure, and touch control electrode block 513 is positioned at pixel electrode 517 near substrate The side of 518.In the present embodiment, thin film transistor (TFT) can also be bottom grating structure, and in other distressed structures, touch control electrode Block 513 can also be positioned at the pixel electrode 517 side away from substrate 518.

It should be noted that in the present embodiment, a plurality of data lines Dn can also be arranged by different layer with holding wire 510.It is different from figure Structure in 5, when a plurality of data lines Dn is arranged with the different layer of holding wire 510, adds respectively in the both sides near signal line layer One insulating barrier.It should be noted that the structure that corresponding above-mentioned different layer is arranged, the present embodiment is to a plurality of data lines Dn and holding wire The mutual alignment of 510, and a plurality of data lines Dn and holding wire 510 the most do not do concrete limit with the mutual alignment of other Rotating fields Fixed, on the premise of the annexation being capable of correspondence and each structure function, can be adjusted as required.

It should be noted that the above embodiment of the present invention only includes 9 touch control electrode blocks with touch control display apparatus, and often go Exemplary theory is carried out in touch control electrode block and as a example by including 3 horizontal scanning lines and 3 column signal lines respectively in each column touch control electrode block Bright, rather than to the restriction of touch control display apparatus structure in the present invention.

Note, above are only presently preferred embodiments of the present invention and institute's application technology principle.It will be appreciated by those skilled in the art that The invention is not restricted to specific embodiment described here, can carry out for a person skilled in the art various obvious change, Readjust and substitute without departing from protection scope of the present invention.Therefore, although by above example, the present invention is carried out It is described in further detail, but the present invention is not limited only to above example, without departing from the inventive concept, also Other Equivalent embodiments more can be included, and the scope of the present invention is determined by scope of the appended claims.

Claims (13)

1. a touch control display apparatus, it is characterised in that including: viewing area and non-display area；

Wherein, described viewing area includes scan line layer, signal line layer and touch control electrode layer；

It has been respectively separated insulating barrier between described scan line layer, described signal line layer and described touch control electrode layer；

Described scan line layer includes fine scanning line；

Described signal line layer includes many column signal lines；

Described many column signal lines are arranged in a crossed manner with described fine scanning line；

At least holding wire described in string includes a gate line being mutually electrically insulated and a touching signals line；

Described touch control electrode layer includes multiple separate touch control electrode block；

In insulating barrier between described scan line layer and described signal line layer, the first via is set；Described signal line layer touches with described In insulating barrier between control electrode layer, the second via is set；Gate line described at least one passes through described first via and Row described scan line electrical connection, touching signals line described at least one is by the described touch control electrode block of described second via and a piece Electrical connection.

Touch control display apparatus the most according to claim 1, it is characterised in that

Holding wire described in each column includes a gate line being mutually electrically insulated and a touching signals line；

The plurality of touch control electrode block is line-column matrix arrangement；

Described scan line of often going is electrically connected by described first via and a described gate line, each described touch-control Electrode block is electrically connected by described second via and a described touching signals line.

Touch control display apparatus the most according to claim 2, it is characterised in that described in a line, the electrical connection of touch control electrode block is many Described in bar, touching signals line length is equal；

M horizontal scanning line, the m bar grid of described m horizontal scanning line correspondence electrical connection it is provided with in the range of touch control electrode block described in a line Holding wire is arranged in the range of different lines touch control electrode block.

Touch control display apparatus the most according to claim 3, it is characterised in that described in a line, the quantity of touch control electrode block is equal to The scan line quantity arranged in the range of described a line touch control electrode block.

Touch control display apparatus the most according to claim 3, it is characterised in that along the row arrangement side of described touch control electrode block To, the length of the described m bar gate line in the range of touch control electrode block described in a line is incremented by successively or successively decreases successively.

Touch control display apparatus the most according to claim 2, it is characterised in that arrange in the range of touch control electrode block described in string N is had to arrange described holding wire；

The length of touching signals line described in n bar is different.

Touch control display apparatus the most according to claim 6, it is characterised in that the touching signals line of same column signal line and grid Interval between the holding wire of pole is less than the distance between adjacent two column scan lines.

Touch control display apparatus the most according to claim 6, it is characterised in that along the row arrangement side of described touch control electrode block To, the length of the touching signals line that described n bar length is different is successively decreased successively or is incremented by successively.

Touch control display apparatus the most according to claim 2, it is characterised in that a described column signal line is arranged on adjacent two row Between pixel cell.

Touch control display apparatus the most according to claim 1, it is characterised in that described touch control display apparatus also includes and institute Stating a plurality of data lines that fine scanning line is arranged in a crossed manner, described a plurality of data lines is arranged with layer with described signal line layer.

11. touch control display apparatus according to claim 10, it is characterised in that described a plurality of data lines is believed with described multiple row Number line parallel insulation is arranged.

12. touch control display apparatus according to claim 1, it is characterised in that also include being arranged in described non-display area Gate driver circuit and touch drive circuit, described gate driver circuit electrically connects with described a plurality of gate line, institute Stating touch drive circuit to electrically connect with described a plurality of touching signals line, described gate driver circuit and described touch drive circuit are divided It is not positioned at the non-display area of described viewing area opposite sides.

13. touch control display apparatus according to claim 1, it is characterised in that described touch control electrode layer is multiplexed with common electrical Pole layer.